Energy-based Modelling of Single Actin Filament Polymerisation Using Bond Graphs

Abstract

AbstractThe energy-based bond graph approach to modelling biological systems is extended to include chemomechanical transduction using actin filament polymerisation and force generation as an exemplar. It is shown that theTF(transformer) bond graph component provides a practical, and conceptually simple, alternative to the Brownian ratchet approach of Peskin, Odell, Oster & Mogilner. Three cases are examined: rigid filament normal to a surface; rigid filament at an angle to a surface and a flexible filament. The latter two cases correspond to incremental additions to the bond graph of the first case. In the first case, the explicit formula derived from the bond graph is identical to that derived by the Brownian ratchet approach. Energy flows are fundamental life; for this reason, the energy based approach is utilised to investigate the power transmission by the actin filament and its corresponding efficiency.The bond graph model is fitted to experimental data by adjusting model physical parameters.